Row crop implement-tractor combination



A. KORSMO ETAL ROW CROP IMPLEMENT-TRACTOR COMBINATION June 16, 1953 Filed April 8. 1949 :z N w 3 \Q \5 s? a 8 Q I I 4. ,I ll Q 'I In a I E'HII l A Q l Q u 1 I 1" I Q W //EE a '5 I a a SN H II I Q n l by v Q 9 g '3; I I g m m I l o II l l\ b I HI ml'" 3 5 II I l I M n I l m 9 Sheets-Sheet 1 flaws KaRsMo Mann/v Re um;-

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ROW CROP IMPLEMENT-TRACTOR COMBINATION Filed April 8. 1949 9 Sheets-Sheet 6 FIE -E June 16, 1953 A. KQRSMQ ETAL ROW CROP IMPLEMENT-TRACTOR COMBINATION 9 Sheets-Sheet '7 Filed April 8. 1949 mcrkfio konsno WUHm Htiorneq s 9 Sheets-Sheet 8 June 16, 1953 Filed A ri; a. 1949 .nttov-negs June 16, 1953 A. KORSMO ETAL 2,541,887

ROW CROP IMPLEMENT-TRACTOR COMBINATION FIE 5 3mm ,44 FRED KORSMO MAR rnv Pamwlvfi- Patented June 16, 1953 ROW- CBQBIMPLEMENTHTRACTOR v COMBINATION 7 Alfred Korsmo, Hopkins, and Martin Ronning,

St. Louis Park, Minn., assignors to- Minneapolis-Moline Company, Hopkins, Minn., a. 001-: notation (if-Minnesota Application April 8., tsuit! sans 7 Claims.. (CL581E18) This invention relates generally toimprovements in self-propelled farm implements and;

more particularly to a tractor-implement com; bination for operation upon row crops. The presentinvention relates further to certain improvements in the type of implement and tractor disclosed in Patent No. 2,524,083,issued October 3, 1950, for Self-Propelled Implement,

Lhe primary object of our present invention is I to provide an improved self-propelled row harvester, specifically a two row corn picker, whichhas numerous advantages both as to operation and construction over prior equipment of this general nature. This invention further provides an improved st'ra-ight-through type of two row harvester embodying as its main elements, and in combination with the supporting and pro-- pelling vehicle, a forwardly arranged two row picker unit and a rearwardly arranged huski'ng unit, with an intervening conveyor operative to deliver the crop from the forward unit rearwardly to the; rear unit. A further and related object of the invention is'to provide in such a machine alinkage and pivot mechanism operative in such manner as to permit the necessary up and down adjustments of the picker unit while maintaining the intervening or connecting cropconveyor between the said two main units in an operative condition, and likewise maintaining the various drive mechanisms intheir operative conditions.

-A further'objject is to-provide-an improved construction for a corn harvester, embodying a framestructure carrying the husk-'ing" unit and associated' parts, upon the forward portion of which frame p ck r nit i iv al'ly, supreme so.

h t i may swine a v r ical p an with spec o a fr me, .a dto the ground ov wh ch he implement travels.- lfhe i plem nt a cord to c ven ion ur her includes a. conv o aran ed t d l v th r c edear 'tmmthc cker unit. to the husking unit and such conveyor supported at opposite ends upcn t e spective;

units n r e to trav l t ereb twec l an eliver he cropmnne to the o her. l aQr-dfilf then to. compensatefor the relativemotion between the units-as the. picker-unit itself. is. swung up.-

wardly and downwardl w provid l ka e mechanism operative tomaintain the conveyorin working condition in any position of the picker unit and to, maintain the necessary. ,drive con.-

nections tothe conveyor. Further in. accordance connections between such elements in any such adjusted. position: of'the picker unit.

' A f-urtlier'object of-* our invention is to provide a crop conveyor between relatively forwardly and rearwardlylocated crop harvesting and working unitswhich has the dual function of delivering the crop from the forward unit to the rearunit, and assisting in discharge of unwanted crop material from the rear unit. As exemplified by the corn picker or harvester herein disclosed the conveyor thus operates tofdeliver the snapped or V picked ears from the picker unit to the husking unit, and further assists in dragging out and discharging the husks removed from the ears in said huskingunit.

Another object of ourinvention is to provide an improved tractordmplement combination having asingle drive connection from the tractor to the implement, which is arranged to be conveniently disconnected when the implement is removed from thetractor, and which further ineludes-a simple'andpractical' drive distributing mechanism by which the power from said drive connection is distributed or transmitted to all of the various working parts of the implement itself.

Another object of our present invention is to provide an improved tractor-implement embodying a tractor having wide spread, forwardly arranged traction wheels, and a narrow body or chassis extending rearwardly substantially in alignmentwith 'oneofsaid wheels and beneath the rear" of" which body a steering unit or wheel is arranged to follow substantially in tandem ortracking alignment with the same traction wheel. Thus the tractor construction provides space alongside the tractor body, and substantially centeredwit-h respect tosaid traction wheels, in which the implement itself may be disposed, places the majority of the weight of the implement directly on the traction wheels and locates th mpl ent positi n r peration u on rop r w st addl d. bys id ra tion Whe ls a th ma hine m v er he fi ld.

A further and related object of the invention stomride a seli n led mplem nt embod ing a-tractor ofthetype described above and an implement having a forwardly arranged, com,-

parativel wide, harvesting n-ni-t locatedbetween the tractionwheels and forwardly thereof, delivering crop material. to a relatively narrow crop.- work ng unit located i m di tely alon s de t body of the tractorhe re mrl ment combination thusv c i e'cp pact an readily oi'w ich cha ac e i s auinteitstr nsnon iravetas w l a its anna ancuve able, .bct

work in the field.

These and other more detailed and specific objects will be disclosed in the course of the following specification reference being had to the accompanying drawings, in which- Fig. l is a side elevation of a self propelled implement or tractor-implement combination according to the present invention and with front and rear end portions thereof omitted.

Fig. 2 is a plan view with parts broken away of the implement and tractor, on a slightly reduced scale, and illustrating how it travels between and operates upon row crops.

Fig. 3 is a fragmentary, side elevational view the operators station I2. This steerable rear wheel I! is located in tandem with the traction Wheel I3, or substantially so, in such manner as to run in tracking alignment therewith or outside of the two crop rows straddled by the traction wheels as shown in Fig. 2. As pointed out in greater detail in the hereinbefore identified prior Ronning patent the engine I is connected to drive the traction wheels I3 and I4 under control of the operator in order to propel the tractor forwardly or rearwardly as desired, and as seen in Fig. 2 the engine also operates, by means of a power output shaft 20, a suitable belt pulley over of the central and forward portions of the implement, showing the picker unit adjusted to a lowered position near the ground, and with a portion of the side shield of such unit omitted in order to better disclose the construction, the near wheel being removed and the axle shown in section.

Fig. 4 is a view identical to Fig. 3 showing the picker unit elevated to a higher position, the near wheel being omitted and the axle shown in section. 7

Fig. 5 is a side elevation of the forward portion of the implement viewing the same from the side opposite Figs. 1, 3 and 4, and in this view the axle construction connecting the traction wheels of the tractor is shown in cross-section, and the near wheel being omitted.

Fig. 6 is a longitudinal, vertical sectional view taken substantially along the line 6--6 in Fig. 2 and showing certain'portions of the tractor itself in dotted lines.

Fig. '7 is an enlarged side elevation of the central portion of the implement partially broken away and in vertical section.

Fig. 8 is a fragmentary vertical cross-sectional view, taken substantially along the line 8-8 in Fig. '7.

Fig. 9 is a fragmentary cross sectional view taken substantially along the. line 9-9 in Fig. 3 and showing the drive mechanism for the snapping rolls and gathering chains.

Referring now more particularly and by reference characters to the drawings the tractor or vehicle element of the self propelled implement will first be described in such detail as n cessary for the proper disclosure of the present invention. The tractor is designated generally by the reference character A and, as best seen in Fig. 2, it comprises a comparatively narrow and elongated body or chassis, on which is an internal combustion engine I!) which provides motive power for the tractor, and operating power'for the implement associated therewith. The said narrow body part of the tractor further includes a frame or chassis structure designated generally at I l at the forward end of which an operators station 12 is located in an elevated position. The forward end of the tractor is supported by wide spread traction wheels I3 and M which are connected by a live axle l5 located within the tubular axle housing 6 rigidly connected to and supporting the tractor body. The traction wheel i3 is located immediately beneath the forward end of the narrow tractor body, whereas the other wheel [4, while located in axial alignment with the wheel I3, stands or runs well out to the side of the tractor. The rear end of the tractor body is supported by a steerable or dirigible rear supporting unit in the form of a single wheel l1 pivotally mounted upon'a vertical axis as designated at [8, and suitably connected for steering operations to a steering wheel I! located adjacent which may be trained a belt 2! for operating the Working parts of the implements as will be later pointed out, the drive being established or disabled by means of a manually controlled belt tightening pulley also as pointed out in said patent.

It will be seen that the tractor as thus constructed provides a wide, transversely extending support between the wide spread traction wheels l3 and I4, and space alongside the narrow body of the tractor centered with respect to such wheels, for the accommodation of an implement in such manner that the tractor-implement combination is comparatively compact and occupies but little more space or ground area than the implement alone. The combination is extremely maneuverable and is in fact, much more so than the ordinary arrangement of tractor and trailing implement which forms a quite elongate train of equipment. Furthermore, as one of the chief and most advantageous concepts embodied in this and the prior Ronning inventions, we propose, as set out in detail in Ronning patent, by the use of the special tractor and the conveniently engaged and disengaged supporting and driving connections made possible between tractor and implement, to materially reduce the aggregate cost to the farmer of his equipment, such as the combine, corn picker, Wagon, spreader, and all of the other large machines ordinarily operated by a tractor. As one example of the savings made possible it will be at once apparent that the implements used with the special tractor will be considerably simplified by the fact that they need no wheel supports whatever, nor do they need the associated chassis frames. These not only add costs but increase the necessary storage space. The tractor itself, provides all necessary support and transport for the implements whatever kind they may be.

In practice each implement is supported at three points upon the tractor and these three points of support are located adjacent to or in alignment with the three supporting wheels of the tractor, heretofore designated at I3, [4 and H. The two forward supports, located in alignment with the traction wheels l3 and I 4, comprise upwardly flaring pockets or sockets 22 which form rigid upward extensions of the axle housing I6 and to fit into these sockets the implement will have complementarily downwardly tapering feet 23 which will guide themselves into place in the sockets and form a stable supporting connection therewith. In order to lock the feet 23 in place, and therefore prevent any upward dislodgment of the implement such as might be caused by travel over rough terrain, the sockets 22 may be provided with releasable latch pins 24 for engagement with openings 25 formed in the feet. These openings appear in Figs. 6 and '7. The third point of support is located adjacent to the rear steerable wheel I! and takes the form of a clip 26 mounted upon the side of the tractor frame II and openingupwardly to accommodate a hanger plate '21 upon the adjacent rear corner of the implement. Inasmuch as these mounting devices have been disclosed in detail in the prior Ronning patent it is thought that no further description should be necessary herein.

The construction of the implement will now be described with particular reference to the tworow corn picker herein disclosed and the implement comprises a main frame structure of a somewhat box like construction, this main frame being designated generally by the reference numeral 28. The frame may be fabricated from conventional angle irons and channels in accordance with modern production methods and comprises as its main elements, upper and lower frame bars 29 and 30 respectively at each side, which are. spaced apart by vertical frame bars 3| and joined by transversely extending crossbars 32. It is to these frame bars as clearly shown in the drawing that the supporting feet 23 and hanger plate 21 are connected but inasmuch as the details of the frame structure will vary for the different types of implements it will not be described in further detail at this point, and instead, as the description of the various working parts of the implements proceeds such elements of the frame structure as necessary to a complete comprehension of the construction will be referred to as needed.

Arranged forwardly of the main frame structure 28 is a picker unit indicated generally at 33 and which itself has a frame structure designated generally at 34 the parts of which will also be referred to as necessary in the course of the following description. The picker unit 33 is pivotally or movably supported for up and down movements at its forward end and for this purpose forwardly and rearwardly extending main frame bars 35 forming part of the frame structure 34 are pivoted by pins 36 upon brackets 3! affixed to the forward lower portion of the frame 28. This mounting is best shown in Fig. 7 and it will be apparent that the entire picker unit may swing in a vertical and longitudinal extending plane about the axes of the pins 36. Such movements of the picker unit are accomplished and controlled hydraulically and the power lift structure for this purpose comprises a transversely extending rockshaft 3B journaled ahead of the axle housing It in suitable bearing brackets 39 secured thereto, and secured to the rockshaft 38 are downwardly extending arms 40 from which lift bars 4| extend forwardly out beneath the picker unit. The rear ends of the bars 4| are pivoted at 42 to the ends of the arms 40 and the forward ends are pivoted at 43 to brackets 44 forming part of the picker frame structure 34. The rockshaft 38 also has an arm 45 depending below the axle housing is and pivoted at 46 to the lower end of this arm is a rearwardl'y extending push rod 41. The rear end of the push rod is pivoted at 48 to a swingable arm 49 on one side of the tractor frame II. A conventional hydraulical ram or fluid motor 50 is pivoted at 5| to the frame l I and its forwardly extending and fluid reciprccated plunger 52 is also connected to the lower end of the aforesaid arm 49. It will be obvious that the forward and rearward motion of the plunger 52 and connected rod 4'? by the ram 50 will so oscillate the rockshaft 38 as to raise and lower the picker unit 33, respectively. Fluid admission H to and return from the ram 50 is controlled from the operators station on the tractor in the v usual manner.

As here exemplified the picker unit 33 is designed for picking two rows of corn simultaneously and for this purpose it has right and left hand pairs of picking rolls, and opposed, cooperating upper and lower gathering chains in the usual fashion of such machines. For guiding the crop into engagement with the picking rolls and gathering chains the picker unit has a center snout or dividing point 5'3 and laterally disposed gathering points 54 and 55 forming rear- Wardly converging openings leading rearwardly into slot-like spaces 56 wherein the aforesaid picking rolls and gathering chains are provided and operated. The snout 53 runs rearwardly into a center sheet 5! the opposite margins of which slope laterally toward the spaces 56 while the gathering points 54 and 55 extend rearwardly to gathering sheets 58, the inner and upper surfaces of which slope inwardl toward the said openings. The gathering sheets 58 further have the usual hanging side shields 59 and this entire sheet and point structure is fabricated as usual of sheet material, and is braced by the usual tubular tie member 60.

As stated above inner and outer snapping rolls 6| and 52 are arranged in each of the rearwardly extending spaces 56 parallel therewith and operate in the usual manner upon stalks of corn guided through the said spaces, during the forward travel of the implement, to snap the ears of corn from the stalks. The snapping rolls themselves are entirely conventional in construction and operation and are rotatably supported at their forward ends by suitable bearings attached to sills 63 which extend along and define the lateral and forwardly diverging margins of the spaces 56. The snapping rolls incline upwardly and rearwardly also in the usual manner, and at their upper rear ends they have axially extending shafts 64 and 65, which are journaled through suitable bearings mounted in angle bracket plates 65 forming part of the picker frame structure 34- and attached (as best seen in Fig. 6) to a transversely extending hollow beam 61. The said beam is rigidly connected to the frame structure 34 by suitable brackets and gussets and rigidly ties together the aforesaid pivot pins 36 by which the entire picker unit is swingably supported upon the main frame structure 28.

The picker unit also includes the usual gathering chain mechanism for guiding and pulling the stalks through the snapping rolls and this mechanism includes, for each set of snapping rolls an outer gathering chain 68 having the usual lugs 69 and suitably supported upon sprockets at its opposite ends in order that its flight or span nearest and above the picking rolls will run in a rearward direction parallel with the axes of the rolls. The rear ends of each of the outside gathering chains operates over sprockets '83 having shafts "H rotatably supported'in gear boxes 12 secured to the frame structure 34 as seen in Figs. 3 and 4. Interiorly flights travel parallel with the snapping rolls along the inside edges of the spaces 56. These gathering chains 15 and 1-6 have the usual lugs 71 and at their rear ends they operate around drive sprockets 18 and 19 upon common drive shafts 8E). The drive shaft 89 for each set of inside gathering chains extends into and is rtatably supported by a gear box 8| in which bevelled gears 82 connect the drive shaft to an upwardly and rearwardly extending shaft 83 journaled through the bracket plate 6 6 at each side of the picker inwardly of the snapping rolls shafts 64 and 65.

The drive mechanism for the snapping rolls and gathering chains is best shown in Fig. 9 and referring thereto it will be seen that the drive mechanism is common to all of these operating elements and that the drive is transmitted from one side to the other through a sprocket chain and associated sprockets as will now be described. Upon the side of the picker unit nearest the tractor a bearing structure or clip assembly 84 is supported by the cross-beam El and rotatably supported in this structure is a shaft 85 whereon is mounted a main drive sprocket 83. The shaft 85 and drive sprocket 86 appear in Fig. 9, whereas the bearing or clip structure supporting these elements is seen best in some of the other views, such as Figs. 6 and '7. The manner in which the shaft 85 is driven from the tractor will be later described in detail but it will sumce for the moment to indicate that it is driven in a counterclockwise direction as viewed in Fig. 9 and as shown by the direction arrow upon the sprocket 88. The drive transmitting sprocket chain is designated at 8'! and it is trained around the drive sprocket 36 and over a sprocket 88 upon the adjacent inner snapping roll shaft 66 and thence across the back of the picker unit over a similar sprocket 85 upon the outer snapping roll shaft at the opposite side. The chain then passes downwardly over an idler sprocket 9% below the shafts 64 and 65, journaled by a conventional stub shaft 98d on the bracket plate 66, and returns to the tractor side of the machine where it runs over a similarly mounted idler sprocket SI and downwardly around the drive sprocket 86. Thus the drive is initially transmitted to one of the snapping rolls shafts at each side of the machine and both shafts "5d and 65 at each side are provided with the usual meshing gears 92 so that the snapping roll of each set will be rotated in opposite directions. The drive is then transmitted to the shafts Hi operating the outer gathering chains 58 by means of gears 93 upon the said shafts and meshing with the gears 92 upon the outer snapping rolls shafts 65. In a similar fashion the drive is finally transmitted to the shafts 83 operating the inner gathering chains i5 and T6 by means of gears 94 secured on said shafts and meshing with the gears 92 upon the inner snapping roll shafts $4; It will, of course, be understood that the direction and rotation of all of these shafts is such as to produce the proper motion of the snapping rolls and gathering chains.

The shaft 85, which operates all of the snapping roll and gathering chain drive mechanisms, is itself driven from a common operating shaft 95 which is journaled and supported by means of a suitable bearing structure 96 upon the side of the main frame 28 adjacent the tractor and which is located in an elevated position and suitably braced to the frame by brace bars 97 appearing in Fig. 5. This shaft 95 is provided with a belt pulley 95 over which the aforesaid belt 2!, operated by the tractor engine I0, is trained in order to transmit the drive between tractor and implement. It is to be noted that each type of implement having operating parts requiring drive from the tractor will have a similar belt pulley, located in the same relative position with respect to the shaft 20 driven by the tractor engine, in order that the same drive belt 2! may be used for all implements. Inasmuch as. a belt tightener is used, as set out in the Ronning patent, in order to engage or disable the drive connection it is, of course, obvious that the belt 2| may be loosened and readily placed over the drive pulley on the implement, as each such implement is mounted upon the tractor. It is thus seen that actually there are only four connections between tractor and implement, as represented by the two wide spread forward supporting feet 23, the hanger plate 2?, and the drive belt 2|.

Power from the belt driven shaft 95 is applied by means of a sprocket chain 953 to an angle drive unit designated generally at Hi6 mounted upon a plate lfli forming part of the main frame 28 and located forwardly of and beneath the belt pulley 93. The said angle drive unit H!!! has power input shaft I52 upon which is mounted a sprocket H33 in alignment with a sprocket I94 upon the shaft S5 and the sprocket chain 99, of course, operates over these two sprockets. Interiorly of the housing of the drive unit Hi the shaft W2 is connected by suitable gears (not here shown) to rotate a stub shaft I05 extending forwardly and angling downwardly toward the shaft 8%: hereinbefore identified. Connection between the shafts H15 and is made by means of universal joints m6 and it! and a connecting shaft N33 therebetween so that flexibility is provided between the drive unit lilii and the drive mechanism extending across the rear of the picker unit, to accommodate for the up and down swinging movements of the picking unit as presently described. It will also be readily understood that, in addition to the changing angles between the shafts 85 and IE5 brought about by the up and down movements of the picker unit, there will be required a variation in length of the connection between such shafts and this is made pos sible by means of a splined connection IE9 between the shaft Hi8 and one of the universal joints. Thus the connection between the shaft 85 and l 65 may decrease in length as made necessary by the upward movement of the picker unit, andvice versa. v

At this point attention is called to the provision of heavy coil springs H6 at opposite sides of the implement and which act as counter-balance springs to yieldably bias the entire picker unit upwardly about its pivots 36, and so act to sup port a part of the weight of such unit. These springs H0 are coiled about rods HI which are pivotally attached at H2 to brackets H3 on the sides of the main frame 28 and these rods angle downwardly and forwardly as shown in Figs. 4, 5 and 7. At their lower ends the rods III are slidably mounted through blocks H 4 pivotally supported by trunnion H5 in arms H6 forming rigid rearward extensions of the picker unit frame bars 35. The arms H6 are rearwardly bifurcated to accommodate the blocks H4 and as the picker unit swings downwardly it Will be evident that the rear ends of the arms, being lo cated rearwardly of the pivots 36, will swing up-,

wardly and so compress the springs III].

The foregoing completes the .construction of the picker 'unit per se, but forming an operative and connected part thereof is an ear conveyor or elevator, designated generally at I I1. This conveyor performs the necessary function of elevating the snapped ears of corn from the snapping rolls upwardly and rearwardly and delivering. these cars to the husking mechanism, later to be described, and which is located in the main frame 28. At its lower forward portion the ear conveyor II1 operates in an opening I I8 at the upper rear center of the picker unit and extends down into a conveyor well housing I I9 depending from the frame structure 34 of the picker. This lower forward portion of the conveyor II1 thus operates between and beneath the upper rear end portions of the snapping rolls BI and 62 and guide sheets sides of the conveyor in such manner as to direct the snapped ears of corn from both .sets of rolls inwardly toward the conveyor. Inasmuch as the conveyor must operate in such relation to thesnapping rolls in all positions of the picker unit it follows that the conveyor must be mounted as a connected part of the picker unit to move therewith. On the other hand, the upper delivery end of the conveyor should bear a more or less fixed relation to' the husking unit into which it delivers the snapped ears of corn and furthermore, since this is the driven end of the conveyor, it must maintain a definite relation toits drive connection so that the drive will be properly transmitted in all positions of the picker unit. The construction and arrangement of the conveyor and the mechanism by which all of these problems are solved will now be described in detail.

The conveyor I I1, in accordance with the usual practice, comprises transversely spaced conveyor chains I2I located at the opposite lateral margins of the conveyor and connected at intervals by transverse paddles or flights I22 which engage and travel the ears of corn in an upward direction. These chains I2I as best shown in Fig. 6, are trained over sprockets I23 which are rotatably supported at the lower portion of the conveyor well II9 by means of a shaft I24 carried in bearings I24a (Fig. 3) on the picker, frame. From these sprockets I23 the conveyor chains I'2'I run upwardly and rearwardly and the chains are guided in such travel by lower angle iron guides I25 and upper guires I26, at each side.

These guires I25 and I26 are also joined by flat sheets I21 and I28, respectively, which in effect form the bottom of the conveyor so that the cars do not fall through between the paddles! 22. The lower guide bars I25 are secured to the inwardly and downwardly extending aprons I29 which form the sides of the conveyor well II9 so that these guide bars and the associated sheet I21 move as a unit with the picker. The mounting and relation of the upper guide bars I26 and bottom sheet I28 withthe lower elements just described will be presently pointed out. .At the upper end of the conveyor the chains I2I operate over transversely spaced drive'sprockets I36 which are secured upon a sprocket shaft I3I journaled in bearing plates I32. These bearing plates I32 are adjustably mounted in the usualmanner, for adjusting the conveyor chain, upon side plates I33 between which is carrieda sheet metalbonnet I34. The bonnet has the usual curved top portionand a downwardly and rearwardly open- I20 are arranged upon opposite 10 ing rearend I35 through which the conveyor will deliver the snapped ears. This bonnet structure and the entire head end assembly of the ear conveyor is supported upon the upper ends of side or support links I31, arranged one at each side of the structure, and secured as designated at I38 to the side plates I33. These links angle downwardly and forwardly and at their lower ends they are pivotally attached by pins I39 to bracket plates I46 secured to the upper side of the cross beam 61. I31 are rigidly cross connected by an angle bar I4I in order to move as a unit about the axes of the pins, I39 and along with the picker unit 33. The downwardly moving rear portion of the conveyor is supported over its upper length by lateral guide bars I42 secured to the inner sides of the side plates I33 and extending downwardly in diverging relation to the links I31, between the forward ends of the main frame bars 29. These rear guide bars. I42 take the form of angles, the inwardly turned webs of which engage and guide the conveyor chains I2I, and the guide bars are secured by means of tie bars I43 to the link I31. At their upper ends the guide bars I42 curve rearwardly and upwardly, as indicated at I44 in Fig. 6, to properly meet and engage the chains as they run forwardly from beneath the drive sprockets I36. From the point at which they leave the lower ends of the guide bars I42 the conveyor chains I2I angle downwardly and forwardly in the clear past the forward end of the main frame structure 28 and beyond the axle housing I6 to the rear portion of the conveyor'well II9. At these points the conveyor chains run beneath idler sprockets I45 carried in suitable bearings I45a. attached to angles I46 forming part of the picker unit frame structure. The conveyor chains then run forwardly beneath the sprockets I23 and then back up toward the head ordelivery end of the conveyor. The angle of the path the chains travel changes as they leave the guide bars I42, and to hold: them in place clips I41 are secured to the guide bars as seen in Figs. 6 and '1.

The lower ends of the upper forward guide bars I26 are provided with bracket ears I48 by which they are pivoted at I49 to similar ears I56 attached to the upper ends of the lower guide bars I25. .There is thus provided a flexible joint between upper and lower portions of the conveyor guides, located above the pivots 36 and substantially in the vertical plane thereof, and in order to accommodate the flexing motion between upward and lower conveyor parts the lowermost conveyor bottom sheet I21 loosely overlaps a downwardly angled lower lip I5I of the upper sheet I28. At their upper ends the guide bars I26 are provided with clips I52 which slidably engage fingers I53 secured in forwardly and downwardly angling positions to the inner sides of the side plates I33. The upper end of the conveyor is further supported and controlled in its movements by tie bars I54 pivoted at one end at I55 to the said plates I33 rearwardly of the shaft .I3I. These tie bars I54 angle downwardly and rearwardly and at lower ends are pivotally attached at I56 to ears I51 secured to upright bars I58 upon the opposite sides of the main frame 26.

The drive mechanism for the ear conveyor or elevator II1 is also taken from the angle drive unit I66, by means of a shaft I59 which extends inwardly across the main frame 28 near its forward end andis journaled at its extremity in an Near their lower ends the side links shaft carries a sprocket 565.

upper bearing H38 on a bearing plate I9! bolted to a central part of said frame. See Fig. 8. A gear I52 upon the shaft I59 meshes with a gear i 52 upon a countershaft I53 journaled in a lower bearing I64 in the plate IS! in order to drive said countershaft. At its opposite end the countershaft is journaled through a bearing plate I65 bolted to the side of the frame 28 opposite the tractor and inwardly of this bearing plate the A sprocket chain IE1 is trained over the sprocket I66 and runs upwardly and rearwardly over a sprocket I68 upon the adjacent end of the conveyor drive shaft IBI as best seen in Fig. 7. Rearwardly the sprocket chain I91 operates over an idler or take up sprocket I69 rotatably carried upon a stub shaft 59a projecting from a bearing plate I1I secured to the upper end of the adjacent upright bar I53 and braced as indicated at I12. The conveyor drive chain I51 also operates over a sprocket I13 on a shaft H5 and this shaft is utilized to drive a part of the husking unit later to be described. It will, of course, be understood that the direction of rotation of these various driving parts will be such as to rotate the conveyor drive shaft I in a counterclockwise direction as viewed in Fig; 1 thus to so operate the conveyor I li that its forward portion will travel upwardly as necessary to deliver the snapped ears from the picking unit to and through the bonnet I34.

The operation of the linkage mechanism supporting the upper or head end of the conveyor H1, and as constituted by the links I31 and tie bars IE4, is such as to maintain the conveyor and its drive mechanism in operative condition in all positions of the picker unit. Referring to Figs. 3 and 4 it will be noted that the picker unit is adjustable through a considerable range from the lowermost position of Fig, 3 to the elevated position of Fig. l. Assuming the picker unit to be in its lower position an upward movement of the unit about its pivots 36 will tend, of course. to project the entire conveyor mechanism in an upward and rearward direction and this motion is transmitted to the head end of the conveyor through the links i 51. This travel of the head end of the conveyor is however, prescribed and restricted to an are centered about the axis of the pivots I56 by the swinging tie bars I54, the upper ends of which travel an arcuate path as the conveyor is so projected. The axes about which these relative movement take place, as represented by the picker pivots 36, the side link pivots I 39 and the tie bar pivots i-I5t, are all so related that the motion of the conveyor head will have no appreciable effect upon the tautness of the driving chain I31, and it will furthermore be understood that, since the en tire conveyor system and the links I31 by which it is held upwardly and rearwardly are all closely related to the axes of the pivots 36, the aggregate motion of the upper end of the assembly is comparatively slight. This not only has the beneficial effect of a very minor variation in the point of delivery of the snapped ears in all positions of the picker unit, but also permits the tie bars I54 to maintain the drive chain I51 in a state of operative tautness under all conditions as stated above. The up and down movements of the picker unit will also cause flexing of the forward portion of the conveyor support about the pivots M9 connecting the upper and lower guide bars together but this motion also is comparatively minor. Conveyor sides or trough sheets mm are carried by the upper guide bars I2E and fit loosely into the rear ends of the side gathering sheets 58 as seen at I281) so as to flex at these points as the picker unit is raised and lowered.

The husking unit carried by the main frame 23 will now be described in detail and the same is designated generally by the reference character I16. This husking unit comprises the usual husking box Ii1 which is positioned centrally in the main frame 25 and opens forwardly to receive the ears of corn delivered through the bonnet I34 by the conveyor H1 and operates, of course, to strip the husks and silks from the ears. The corn falling from the bonnet I36 is guided by a chute I18 downwardly intothe upper forward end of the husking box I'Il and the corn falls upon a series of eight husking rolls forming the husking bed I19. These husking rolls and their operation are entirely conventional and in the arrangement here shown there are two sets of rolls each comprising spaced, upper side rolls I built up of a series of disks of resilient material, and coacting with intervening lower rolls I8! having the usual husking paddles I82. The husking bed slopes downwardly and rearwardly and the forward ends of the rolls I8!J-I8I project through a forward end plate I83 secured to the main frame structure, while at their lower rear ends the rolls are journaled through a suitable supporting plate I34 also attached to the frame. As seen in Fig. 8 the forward ends of the rolls are provided with connecting gears designated at I85 collectively to drive all of the rolls in unison in the proper directions and the uppermost rolls I89 are further supported upon swingable arms I86 engaged by springs I81, which operate to normally hold the rolls in operative condition but which permit them to spread apart whenever made necessary by husks stripped by the rolls and passing downwardly' therebetween. A shaft I88 extends forwardly from one of the rolls and it is provided with a sprocket I85; over which runs a sprocket chain I90 leading laterally out toward the tractor and operating over a sprocket I9I driven by a rearwardly and downwardly angled shaft I9Ia from the angle drive unit I00 as seen'in Fig. 5. This drive mechanism, of course, thus operates all of the husking rolls.

The aforesaid shaft I14, which is driven by the sprocket I13 from the conveyor drive chain I61, extends across the upper forward portion of the husking bed I19 and between its ends the shaft is provided with sprockets I92. A husking conveyor of conventional type is operated by the shaft I14 and it comprises transversely spaced conveyor chains I93 trained over the sprockets I92 and over similar sprockets I 94 arranged at the rear end of a conveyor frame I95. The chains I93 further operate over idler sprockets I96 carried by the frame and the direction of rotation of the shaft I14 is such that this husking conveyor will run rearwardly on its underside nearest the husking bed. The conveyor chains are joined by the usual transverse paddles I 91 and this motion of the conveyor tends to work the ears rearwardly over the husking bed to bring them into proper husking relation with the various husking rolls in the usual manner. The conveyor frame I pivots about the shaft I14 for up and down swinging adjustments at the rear end, such adjustments being made in the usual manner by cam levers I98.

The husked ears are delivered off the rear end of the husking bed I19 onto an apron I99 and thence into a wagon conveyor 209 mounted in the usual upwardly and rearwardly extending conveyor housing 201. This conveyorcomprises the usual conveyor chains 202 with elevating paddles 203 and these chains operate at their lower ends about sprockets 2114 on a transversely extending shaft 265 journaled in and through the lower forward end of the conveyor housing. The conveyor housing is pivotally attached at 2136 to the main frame 28 so that it may be swung from its working position as shown throughout in the drawing forwardly'over the machine when transporting. As one'end the shaft 205 has a sprocket 201 and a sprocket chain 2138 is'driven from a sprocket 209 upon the extremity of the countershaft 163 in order to operate the wagon elevator. If desired the wagon elevator may be provided with the usual blower fan,the housing of which appears at 210 in Fig. 1, and to drive this fan its shaft 211 is extended toward the tractor (Fig. 2) for belt drive as indicated at 212 from a pulley 213 mounted upon an inward extension 214 of the main drive shaft 95. See Fig. 8. As best seen in Fig. 8 also, the sprocket 209 is loose on the countershaft 153 but is normally clutched to a pin 224thereon by means of a spring 225. A hand lever 22% is mounted across the machine with a handle 22'! next to the tractor, and at its opposite end is pivoted to a fork 228 by which the sprocket 2139 may be declutched in order to stop the wagon elevator at any time.

The husking unit is completed by a husk and corn saver conveyor mechanism as best shown in Fig. 6 arranged lengthwise beneath the husking box 1'11 and comprising front and rear sprockets 214 and 215 over which transversely spaced sprocket chains 216 operate. The rear sprockets 215 are mounted upon a shaft 211 extending out through the side of the main frame and carrying a sprocket 218 also operated by the chain 208 running the wagon elevator; As seen in Fig. 1 the usual idler 219 sprocket is provided for the chain 208. The direction of drive thus imparted to the conveyor chains 216 is such that they travel forwardly at their upper flights, as indicated by the direction arrow in Fig. 6, and the chains are connected by raddles 221i operative as the conveyor moves to carry thestripped husks and sliks falling from thehusking bed in a forward direction. This material falls from the forward end of the conveyor upon a forwardly and downwardly inclined transverse delivery downward direction.

Arranged below the upper flight of the conveyor chains 216 is a perforated sieve 222 through which the shelled corn which may be present in the husks and silks falling from the husking bed may drop. This shelled corn then falls through the lower flights of the chains onto a conveyor pan 223 extending the full length of the conveyor and positioned immediately beneath the lower flights of the chains 216 so that the raddles 220 will pass rearwardly in wiping relation. The raddles thus convey the shelled corn in a rearward direction and it falls into the lower end of the wagon elevator for delivery by the elevator flights 203 to the wagon. The conveyor pan 223 may also be finely perforated so that small particles of dirt falling through the sieve 222 may drop through the open side of the frame to' the ground. This conveyor and sieve arrangement therefore has the dual function of discharging the husks and silks and saving the shelled corn for delivery into the wagon.

It will be apparent from the foregoing'that we have provided a two-row straight through type of corn picker which may be conveniently ,mounted upon the tractor A and will operate to harvest the two crop rows passing between the traction wheels 13 and 14. The picker is so constructed that it may be centered with respect to the traction wheels 13 andlfi with the necessarily wide picker unit 33 located over and forwardly of the wheels, while the comparatively narrow and rearwardly located husking unit is located compactly alongside the tractor body. Other objects and advantages of the construction have been pointed out in the course of the foregoing description and it is believed that the operation will be understood to those skilled in the art without further description herein.

It is understood that suitable modifications may be made in the structure as disclosed, provided such modifications come within the spirit and scope of the appended claims. Having now therefore fully illustrated and described our invention, what we claim to be new and desire'to protect by Letters Patent is:

l. A self-propelled corn harvester comprising a frame'mounted on a forwardly disposed transversely spaced pair of traction wheels and sup ported at its rear on a steering wheel substantially aligned with one of the traction wheels, a corn picking unit adjustably supported on the frame and projecting forwardly therefrom for picking corn from crop rows straddled by the traction wheels, a longitudinally extending husking unit carried by the frame, rearwardly of the picking unit, a conveyor operatively connected to said picking unit and to said frame for conveying corn to the husking unit, a power plant mounted on the'frame alongside the husking unit at the side of the frame supported by the steering wheel, and power drive connections from the power plant to the traction wheels, picking and husking units, and conveyor.

' 2. In a corn harvester, a chassis including a frame supported on a pair of forwardly disposed traction wheels and on a rear steering wheel substantially aligned with one of the traction wheels, a traction wheel propelling engine mounted on the frame longitudinally between the steer ing wheel and the traction wheel with which it is aligned, a corn picker unit mounted on and extending forwardly from the frame to pick corn from corn rows straddled by the traction wheels, and a corn husking unit mounted on the frame rearwardly of the picking unit, said picker unit having corn discharge means extending toa point adjacent the husking unit to deliver corn thereto, said husking unit being relatively narrower than the picking unit and being disposed alongside of the power plant.

mounted on the frame rearwardly of the picker unit, means for conveying corn from the picker unit to the husking unit, a power plant mounted on the frame longitudinally between the steering wheel and the traction wheel in tandem therewith so as to be disposed alongside of the husk ing unit, and power drive connections from the power plant to the traction wheels and to the picking and husking units.

4. A corn harvester comprising a first frame supported on a pair of forwardly disposed traction wheels transversely spaced to straddle two rows of corn, and on a rear steering wheel laterally offset'to travel in tandem with one of the traction wheels outside of one of said corn rows, an engine mounted on the frame in substantial longitudinal alignment with the traction Wheel at the side of the frame which is supported by the said steering wheel, for driving the traction wheels, a second frame detachably mounted on the first frame, a corn picking unit carried by the second frame to extend forwardly of the first frame to pick corn in advance of the traction wheels, a corn husking unit carried by the second frame alongside of the engine and rearwardly of the picking unit, means for conveying corn from the picking unit to the husking unit, and power drive connections from the engine to the picking and husking units.

5. A corn harvester comprising a first frame supported on a pair of forwardly disposed traction wheels transversely spaced to straddle two rows of corn, and on a rear steering wheel laterally offset to travel in tandem with one of the traction wheels outside of one of said corn rows, an engine moimted on the frame in substantial longitudinal alignment with the traction wheel at the side of the frame which is supported by the said steering wheel, for driving the traction wheels, a second frame detachably mounted on and secured to the first frame, a corn picking unit adjustably carried by the second frame and extending forwardly of the first frame to pick corn in advance of the traction wheels, means for vertically adjusting the operative position of the picking unit, a corn husking unit carried by the second frame rearwardly of the picking unit, a conveyor for delivering corn from the picking unit and to the husking unit, and power drive connections from the engine to the picking and husking units and to the conveyor.

6. A row crop harvester comprising a first frame supported on a pair of forwardly disposed traction wheels transversely spaced to straddle two crop rows, and on a rear steering wheel laterally offset to travel in tandem position with one of said traction wheels outside of one of said crop rows, said frame including an axle housing transversely connecting the two traction wheels and a laterally disposed elongated portion longitudinally connecting the steering wheel to the traction wheel in tandem therewith, an engine mounted on the said laterally disposed portion of the frame in substantial alignment with said one traction wheel and operative to drive both traction wheels, a second frame detachably mounted on the first frame and extending rearwardly from the axle housing, a crop treating unit mounted on said second frame in a position substantially alongside of the engine and connected thereto for operation thereby, a two-row crop harvesting unit tiltably mounted on the forward end portion of the second frame and extendin forwardly therefrom with means to separately harvest crop from the we crop rows straddled by the traction wheels and in advance thereof, a conveyor arranged to receive harvested crop from the two harvesting means and to convey it rearwardly for delivery to the said crop treating unit, and power drive connections from the engine to the separate, crop harvesting means and to said conveyor.

7. A row crop harvester comprising a first frame supported at its forward end upon a pair of traction wheels transversely spaced to straddle two crop rows, a steerable support for the rear end of the frame, laterally offset to travel in tandem position with respect to one of said traction wheels, and on the outerside of one of said crop rows, said frame including a cross member transversely connecting the two traction wheels and a laterally disposed longitudinal part connecting the steerable support to the traction wheel in tandem therewith, an engine mounted on the said longitudinal part of the frame and connected with the two traction wheels to operate the same, a second frame detachably mounted on the first frame and extending rearwardly from the aforesaid cross member thereof, a crop treating unit mounted on said second frame in a position alongside of the engine and connected thereto for operation thereby, a two-row crop harvesting unit tiltaoly mounted on the forward end portion of the second frame and extending forwardly therefrom with means to separately harvest crop from the two crop rows straddled by the traction wheels, a conveyor arranged to receive harvested crop from the two harvesting means and to convey it rearwardly for delivery to the said crop treating unit, and power drive connections from the engine to the separate crop harvesting means and to said conveyor.

ALFRED KORSMO. MARTIN RONNING.

References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 1,155,173 Tschantz Sept. 28, 1915 1,166,401 Faltin 'Dec. 28, 1915 1,222,557 McFarland et a1. Apr. 10, 1917 1,263,001 SWOfiOI'd. Apr. 16, 1918 1,445,797 Peirce Feb. 20, 1923 1,646,741 Barnett Oct. 25, 1927 1,721,387 Gayraud et al. July 16, 1929 1,940,851 Everett et a1 Dec. 26, 1933 1,943,284 Binau Jan. 16, 1934 1,972,680 Cushman Sept. 4, 1934 2,022,909 Glen Dec. 3, 1935 2,223,704 Powell Dec.'3, 1940 2,264,565 Coultas et al. Dec. 2, 1941 2,323,087 Everett June 29, 1943 2,334,945 Mitchell et al Nov. 23, 1943 2,379,802 Hyman July 3, 1945 2,427,861 Johnson Sept. 23, 1947 2,444,561 Fergason July 6, 1948 2,458,782 Hyman et al. Jan. 11, 1949 2,524,083 Ronning Oct. 3, 1950 

